Yes, you can use the built-in hashlib modules or the built-in hash function. Then, chop-off the last eight digits using modulo operations or string slicing operations on the integer form of the hash:

>>> s = 'she sells sea shells by the sea shore'
>>> # Use hashlib
>>> import hashlib
>>> int(hashlib.sha1(s).hexdigest(), 16) % (10 ** 8)
58097614L
>>> # Use hash()
>>> abs(hash(s)) % (10 ** 8)
82148974

public service announcement...this technique doesn't actually result in a unique hash value for the string; it computes a hash and then munges into a non-guaranteed-unique value
– twnealeSep 18 '15 at 15:03

public service announcement...except for the special case of perfect hashes over limited set of input values, hash functions aren't supposed to generate guaranteed unique values.
– Raymond HettingerSep 19 '15 at 15:39

Probably true, but virtually all of their practical utility derives from their their good-enough tendency to produce unique values. The probability of a 'hash' collision using this trick is probably 10 or 11 orders of magnitude higher than md5
– twnealeSep 20 '15 at 23:04

Did you read the OP's question? He (or she) wanted (or needed) 8 decimal places. Also, the way hash tables work is to hash into a small search space (the sparse table). You seem to not know want hash functions are commonly used for and to not care about the actual question that was asked.
– Raymond HettingerSep 21 '15 at 3:19

1

I read the question. I'm simply observing that over the same input space as SHA-1, your answer is astronomically more likely to produce a collision than not. At least some degree of uniqueness is implicitly required by the question, but your answer is a hash function in the same spirit as one that simply returns 12345678 for every input. I was able to experimentally generate a collision with as few as 1000 inputs using this method. To preserve the same collision probability as SHA-1, you would have to map un-truncated SHA-1's to 8-digit integers. I think that's worthy of a PSA
– twnealeSep 21 '15 at 15:58